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Adaptation of Drosophila melanogaster to altitudinal and latitudinal climatic gradients : the role of the heat-shock RNA gene hsr-omegaCollinge, Janelle Elyse January 2004 (has links)
Abstract not available
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Factors influencing the occurrence of stinging jellyfish (Physalia spp.) at New Zealand beachesPontin, David R. January 2009 (has links)
Individuals of the cnidarian genus Physalia are a common sight at New Zealand beaches and are the primary cause of jellyfish stings to beachgoers each year. The identity of the species and the environmental factors that determine its presence are unknown. Lack of knowledge of many marine species is not unusual, as pelagic invertebrates often lack detailed taxonomic descriptions as well as information about their dispersal mechanisms such that meaningful patterns of distribution and dispersal are almost impossible to determine. Molecular systematics has proven to be a powerful tool for species identification and for determining geographical distributions. However, other techniques are needed to indicate the causal mechanisms that may result in a particular species distribution. The aim of this study was to apply molecular techniques to the cnidarian genus Physalia to establish which species occur in coastal New Zealand, and to apply models to attempt to forecast its occurrence and infer some mechanisms of dispersal. Physalia specimens were collected from New Zealand, Australia and Hawaii and sequenced for Cytochrome c oxidase I (COI) and the Internal transcribed spacer 1 (ITS1). Three clans were found: a Pacific-wide clan, an Australasian clan and New Zealand endemic clan with a distribution confined to the Bay of Plenty and the East Coast of the North Island. Forecasting Physalia occurrence directly from presence data using artificial neural networks (ANN) proved unsuccessful and it was necessary to pre-process the presence data using a variable sliding window to reduce noise and improve accuracy. This modelling approach outperformed the time lagged based networks giving improved forecasts in both regions that were assessed. The ANN models were able to indicated significant trends in the data but would require more data at higher resolution to give more accurate forecasts of Physalia occurrence suitable for decision making on New Zealand beaches. To determine possible causal mechanisms of recorded occurrences and to identify possible origins of Physalia the presence and absence of Physalia on swimming beaches throughout the summer season was modelled using ANN and Naϊve Bayesian Classifier (NBC). Both models were trained on the same data consisting of oceanographic variables. The modelling carried out in this study detected two dynamic systems, which matched the distribution of the molecular clans. One system was centralised in the Bay of Plenty matching the New Zealand endemic clan. The other involved a dynamic system that encompassed four other regions on both coasts of the country that matched the distribution of the other clans. By combining the results it was possible to propose a framework for Physalia distribution including a mechanism that has driven clan divergence. Moreover, potential blooming areas that are notoriously hard to establish for jellyfish were hypothesised for further study and/or validation.
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The importance of fine-scale environmental heterogeneity in determing levels of genotypic diversity and local adaptationSherman, Craig D. H. January 2006 (has links)
Thesis (Ph.D.)--University of Wollongong, 2006. / Typescript. Includes bibliographical references: p. 161-192.
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Variabilidade e estrutura genética de populações de Alabama argillacea (Hüeb.) (Lepidoptera: Noctuidae) no Brasil: subsídios para o manejo da resistência à toxina Cry1Ac em algodão geneticamente modificado / Variability and genetic structure of Alabama argillacea (Hüeb.) (Lepidoptera: Noctuidae) populations in Brazil: Basis for managing resistance to Cry1Ac toxin in genetically modified cottonVitor Antonio Corrêa Pavinato 09 March 2010 (has links)
Algodão geneticamente modificado que expressa a toxina Cry1Ac de Bacillus thuringiensis Berliner tem sido plantado no Brasil desde 2006. Entre as pragas-alvo da tecnologia, Alabama argillacea (Hüeb.) é uma espécie monófoga e apresenta alto potencial de risco de evolução da resistência. Para a implantação de um programa de manejo da resistência de A. argillacea à toxina Cry1Ac no Brasil, os principais objetivos do trabalho foram: a) estabelecer a linhas-básicas de suscetibilidade à toxina Cry1Ac em populações de A. argillacea e definir concentrações diagnósticas para o monitoramento da resistência e b) isolar e caracterizar locos microssatélites para avaliar a variabilidade e estruturação genética de populações de A. argillacea no Brasil. As linhas-básicas de suscetibilidade foram estimadas por meio de bioensaio de imersão de discos de folhas em soluções contendo a toxina Cry1Ac para populações de A. argillacea coletadas nos estados da Bahia, Goiás, Mato Grosso e Mato Grosso do Sul, durante as safras agrícolas de 2008 e 2009. Foram isolados e caracterizados dez locos microssatélites. Para avaliar a variabilidade genética foram estimadas as heterozigosidades observadas e esperadas. Para o estudo da estruturação genética foram estimadas as estatísticas F e feita a análise de agrupamento (distância de Nei) e análise Bayesiana. Baseado na estimativa da CL50 foram encontradas variações naturais de até seis vezes na suscetibilidade à toxina Cry1Ac entre as populações testadas. A partir da análise conjunta dos dados de concentração-mortalidade das populações testadas, foram definidas as concentrações diagnósticas de 10 e 32 µg de Cry1Ac/ml de água para futuros programas de monitoramento da resistência. O número médio de alelos por loco foi de 7,1 (variando de dois a 23 alelos). As heterozigosidades observada e esperada médias foram de 0,532 e 0,329. O índice de fixação intrapopulacional médio (f FIS) foi de 0,268, com variação entre os locos de -0,008 a 0,736. O índice de fixação da espécie (FIS) estimado através da análise de variância foi de 0,244 (IC 95% de 0,093 a 0,418). O valor de FST estimado foi de 0,036 (IC 95% de 0,007 a 0,080). Esse valor de FST não diferiu significativamente de zero, indicando a ausência de estruturação genética. Contudo foi detectado certo grau de endogamia intrapopulacional. A estruturação espacial da variabilidade genética não foi detectada, pois as populações avaliadas apresentaram uma coesão que é mantida pela alta taxa de migração (6,7 migrantes por geração). Entretanto, foi identificada indícios de estruturação genética determinada pelo tempo, uma vez que tanto o agrupamento baseado em distâncias genéticas quanto à análise Bayesiana identificaram grupos que são formados por populações coletadas em safras agrícolas diferentes. As causas ligadas a essa mudança na variabilidade genética não puderam ser identificadas, entretanto pode se inferir que possivelmente causas naturais ou práticas de manejo estejam determinando eventos de gargalo genético. Devido ao intenso fluxo gênico entre populações de A. argillacea no Brasil, estratégias de manejo da resistência devem ser implantadas no âmbito nacional. / Genetically modified cotton expressing Cry1Ac toxin of Bacillus thuringiensis Berliner has been planted in Brazil since 2006. Among target pests of this technology, Alabama argillacea (Hüeb.) is a monophagous species and offers a high potential risk of resistance evolution. In order to implement a resistance management program of A. argillacea to Cry1Ac toxin in Brazil, the objectives of this research were: a) to establish baseline susceptibility to Cry1Ac toxin in A. argillacea populations and define diagnostic concentrations for resistance monitoring and b) to isolate and characterize microsatellite loci to evaluate the variability and genetic structure of A. argillacea populations in Brazil. The baseline susceptibility data were estimated with leaf-disc bioassays by dipping into different concentration of Cry1Ac solution. Populations of A. argillacea were collected in Bahia, Goiás, Mato Grosso and Mato Grosso do Sul States, during 2008 and 2009 cotton-growing seasons. Ten microsatellite loci were isolated and characterized. The genetic variability was evaluated estimating observed and expected heterozygosities. For the studied of genetic structure, the F statistics was estimated, and Cluster analysis (Nei´s distance) and Bayesian analysis were performed. Based on estimation of LC50, natural variation up to 6-fold was detected in the susceptibility to Cry1Ac among tested populations. Based on analysis of concentration-mortality data by combining all populations, diagnostic concentrations of 10 and 32 µg of Cry1Ac/ml of water were defined for monitoring resistance. The mean number of alleles per loci was 7.1 (varying from 2 to 23 alleles). The observed and expected heterozigosities was 0,523 e 0, 395. The mean intrapopulation fixation index (f FIS) 0,268, varying from -0.008 to 0.736 between loci. The species fixation index (FIS) estimated by analysis of variance was 0.244(95% CI of 0.093 to 0.418). The estimated value of FST was 0.036 (95% CI of 0.007 to 0.080). The FST value was not significantly different from zero, indicating absence of genetic structure However, some degree of intrapopulational inbreeding was detected. Spatial structure of genetic variability was not detected because tested populations showed cohesion kept by high migration rate (6.7 migrants per generation). However, evidence of genetic structure across time was detected by Cluster analysis of genetic distance as well as by Bayesian analysis with group formation by population collection seasons. Factors affecting changes in genetic variability were not identified; however, natural factors or management practices may be determining some genetic bottleneck events. Due to intense gene flow among A. argillacea populations in Brazil, resistance management strategies must be implemented in a national basis.
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Bio-écologie et dynamique des populations de cécidomyie des fleurs (Procontarinia mangiferae), un ravageur inféodé au manguier (Mangifera indica), en vue de développer une lutte intégrée / Bio-ecology population dynamics of mango gail midge, (Procontarinia mangiferae Felt), a specific mango pest, in order to develop Integrated Pest Management strategiesAmouroux, Paul 03 July 2013 (has links)
Les relations complexes qui unissent les insectes phytophages et les plantes peuvent être étudiées par des approches interdisciplinaires à diverses échelles. Ces études peuvent avoir un intérêt appliqué, dans l'agriculture notamment. Au cours de cette thèse, nous avons mené une étude interdisciplinaire sur la biologie de la cécidomyie des fleurs du manguier, Procontarinia mangiferae (Felt) (Diptera : Cecidomyiidae), un bio-agresseur monophage et invasif responsable de dégâts économiques majeurs dans plusieurs zones de production du monde. L'objectif était d'améliorer les connaissances sur la biologie de cette espèce à l'île de la Réunion : (1) en évaluant sa diversité génétique et les facteurs écologiques et biologiques qui peuvent expliquer la structuration génétique de ses populations ; (2) en étudiant en milieu naturel ou contrôlé les caractéristiques de sa diapause, qui lui permettent de maintenir des populations d'une saison de floraison à la suivante ; (3) en étudiant par modélisation la dispersion des femelles dans un verger lors de sa colonisation, en prenant en compte les capacités de vol et la distribution spatiale et temporelle des stades sensibles du manguier au sein du verger. Les résultats ont montré que l'espèce P. mangiferae se reproduisait à la fois sur les inflorescences et sur les jeunes feuilles, qu'elle était présente toute l'année et sur tous les sites échantillonnés sur l'île, quelles que soient les conditions culturales ou climatiques. Ses populations sont apparues structurées en deux clusters sympatriques, dont un était plus fréquent dans la zone de culture du manguier. Ensuite, nous avons prouvé l'existence d'une diapause facultative induite toute l’année, avec cependant un taux d'induction de diapause supérieur en été. Cette diapause du troisième stade larvaire se déroule dans le sol et dure entre six semaines et plus d'un an. Les températures fraiches déclenchent les émergences des individus en diapause et permettent de synchroniser l'émergence des adultes avec la période de floraison du manguier. Enfin, nous avons montré que des femelles immigrantes étaient capables de coloniser l'ensemble des arbres d'un verger. Le vol d'arrivée des femelles dans le verger et le vol actif au sein du verger se sont avérés influencés respectivement par l'abondance et par l'attractivité de la ressource. Les connaissances obtenues sur la biologie de P. mangiferae et sur ses relations avec le manguier ouvrent des pistes pour le développement de stratégies de gestion agroécologique de ce bio-agresseur. / Phytophagous insects and plants are linked by complex relationships. Insect-plant interaction researches involve several biological disciplines at different levels of analysis. These insect–plant relationships are of crucial importance from an applied point of view, notably for agriculture. In this work, an interdisciplinary approach has been used to study on the mango blossom gall midge, Procontarinia mangiferae (Felt) (Diptera: Cecidomyiidae), an invasive insect pest specific to mango causing major economic damages worldwide. The objective was to improve our knowledge of the biology of this species in the subtropical Reunion Island (i) by describing its genetic diversity and investigate the ecological and biological determinants of the genetic structure of its populations, (ii) by carrying out field and controlled experiments to understand the diapause strategies involved in maintaining populations from one flowering season to the next one, (iii) by modeling the arrival and dispersion of females within an orchard in relation with their flight capacity and with the spatial and temporal distribution of the mango susceptible resources. The results showed that the single species P. mangiferae, feeding on both inflorescences and young leaves, was present all year round and in all the sampled sites on the island, regardless of the climatic and cultural conditions. Populations in Reunion Island appeared structured into two clusters in sympatry, one cluster being more frequent in the cultivated mango area. Secondly, we demonstrated the occurrence of facultative diapause all year round, with the highest rate of diapause observed in summer. The diapause allowed a developmental arrest at the 3rd larval instar in the soil, lasting between six weeks to more than one year. The decrease of temperature at the beginning of winter triggered off the emergence of diapausing individuals and synchronized adult emergence with the mango flowering period. Thirdly, non-native female gall midges were able to colonize all the trees of an orchard. Their arrival flight and trivial flight were oriented by the abundance and by the attractiveness of the mango resources, respectively. The knowledge obtained on the biological cycle of P. mangiferae and on its relationships with the mango tree should be useful to develop new agroecological pest management strategies.
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Landscape genetics of Alnus glutinosa across contrasting spatial scales in a natural river systemFlint, Gillian F. January 2015 (has links)
The genetic diversity and genetic structure of populations, and the processes shaping gene flow within and between populations, are influenced by the landscapes they occur within. Within terrestrial landscapes, rivers and their riparian habitat are among the most dynamic, diverse and complex of landscapes and their linear structure appears as an interlinking feature across large landscapes. This thesis took a landscape genetics approach to examine the influence of river landscape features on Alnus glutinosa populations, a widespread keystone tree species of European riparian ecosystems. By accounting for the differing dispersal mechanisms of A. glutinosa (wind and water), landscape effects on seed- and pollen-mediated gene flow, genetic diversity, demographic and genetic structure were identified at different spatial scales of a large UK river catchment. Widespread gene flow within and between A. glutinosa populations was identified with no apparent limitation of wind-mediated pollen dispersal. Hydrochorous dispersal of seed between populations was evident, and found to increase genetic connectivity between riparian populations; however an isolation by distance effect was identified between populations located further apart from each other. No pattern of genetic diversity was found, with high levels of genetic diversity identified at all spatial and temporal scales. At the river-catchment scale no genetic clustering was observed, either within or between the six rivers studied. Demographic structuring within A. glutinosa populations was evident, and correlated with distance from the main river channel. Interactions between seed dispersal, hydrological disturbance, colonisation, and historical influences are discussed in relation to fine-scale spatial genetic structure between A. glutinosa sapling and adult generations. Central to the landscape genetics approach taken in this thesis was the incorporation of key A. glutinosa life history attributes. By incorporating gene flow analyses, species ecology and landscape features, the research presented here furthers our understanding of riverine landscape influences on their riparian populations at different spatial scales and can be used to inform management principles.
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Host-parasite coevolution in New Zealand: how has Odontacarus, a mite with a free-living stage in its life-cycle, coevolved with its skink host?Vargas, Mariana L. January 2006 (has links)
The effect of a free-living stage in host-parasite coevolution: a skink mite phylogenetic study in New Zealand. During the last decade, phylogenetic trees have even been used to compare ecologically related taxa such as parasites and their hosts, and are used to determine their level of coevolution or reciprocal adaptation in time. Diverse coevolutionary events have been detected for this ecological association, where generally the parasite has been regarded as one that feeds exclusively on the host and is likely to cospeciate with it. A different coevolutionary pattern might occur when the parasite has a free-living stage in its life cycle, in which the parasite may have the opportunity to abandon its host and successfully colonise a new species (host-switching) making cospeciation less likely. Many New Zealand skinks are infested with a parasitic mite, Odontacarus sp. (Prostigmata: Leeuwenhoekiidae), which becomes free-living as an adult. The genetic variation of these mites found on four hosts was analyzed for host- parasite coevolutionary events. The hosts were the McCann’s skink and the common skink in coastal Birdling Flat, Canterbury, plus these species and the Grand and Otago skinks in Macraes Flat, Central Otago, South Island, New Zealand. The genetic variation of fast evolving nuclear Internal Transcribed Spacers 2 and mitochondrial Cytochrome c Oxidase I in Odontacarus mites found on these hosts was determined by PCR and DNA sequencing and phylogenetic trees were built using the computer programs PAUP*4 and MrBayes 3. The results show that mite haplotypes only had a significant geographical division and no host-related differences. In Birdling Flat, the COI haplotypes were represented in two groups that infested both regional hosts and had 5.7 % divergence. The same individual mites belonged to a single ITS 2 haplotype, thus indicating a historical geographical division between two populations that now interbreed successfully. The Macraes Flat mites were divided into two COI haplotypes with 2.4% divergence and internal nodes, which showed greater genetic variability than the Birdling Flat populations. The Macraes Flat mites formed two ITS 2 haplotypes with 6% divergence. This greater geographical structure of the Otago mites is probably due to the older age of the mainland area compared to the recently exposed coastal locality of Birdling Flat. The COI haplotypes from the two different regions had a mean distance of 15.5%, with an earlier divergence time than that known for the hosts. For both genes, the haplotypes from different regions had 100% bootstrap support and the parasite showed no host specificity. Mites of the different COI and ITS haplotypes were found on most of the host species that were sampled in Canterbury and Otago. The results of this study suggest that a free-living stage in a parasite’s life cycle can favour coevolutionary events such as inertia (failure to speciate) and host-switching, probably as a result of resource-tracking of the parasite. NB: Electronic files contained on CD to accompany print copy are not included with this version of the thesis.
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Molecular systematics and colour variation of Carpophilus species (Coleoptera: Nitidulidae) of the South PacificBrown, Samuel David James January 2009 (has links)
The sap beetle genus Carpophilus Stephens (Coleoptera: Nitidulidae) is a large genus consisting of over 200 species and are found worldwide. Several species are important pests of crops and stored products, and are frequently intercepted as part of biosecurity operations. The genus is poorly known taxonomically, and there are several species groups that are challenging to identify by morphological methods. In particular, two species found across the Pacific, C. maculatus Murray and C. oculatus Murray are frequently confused with each other. These two species are similar in size and colour, but differ primarily by the shape of the colour pattern on their elytra. However, this colour pattern is highly variable within both species, leading to ambiguity in the indentification of these species. Within C. oculatus, three subspecies have been described based on differences in the male genitalia and pronotal punctation: C. o. oculatus and C. o. gilloglyi Dobson are distributed widely across the Pacific, while C. o. cheesmani Dobson is known only from Vanuatu. A search of literature records and specimen collections revealed 32 species of Carpophilus recorded from the Pacific region. In addition there remain several unidentified specimens representing at least four species, two of which will be described subsequent to this research. A number of species recorded in the literature may have been misidentified, and these require further field collections and inspection of museum specimens to confirm their presence in the Pacific. To test the validity of the subspecies of C. oculatus, and its distinctiveness from C. maculatus, a phylogeny of available specimens of Carpophilus was inferred from one mitochondrial gene (cytochrome c oxidase subunit I (COI)), and two nuclear genes (28S ribsomal RNA (28S) and the internal transcribed spacer 2 (ITS2)). These data show large genetic distances between the three subspecies of C. oculatus of 7-12%. Given these distances are similar to those between other species in the genus, this indicates these subspecies may be elevated to full species. The data also consistently support a monophyletic relationship between C. o. oculatus and C. o. gilloglyi. Nuclear genes also support C. o. cheesmani as part of a clade with the other subspecies, but these relationships are unresolved in COI. Carpophilus maculatus was not supported as being the sister taxon of the C. o. oculatus and C. o. gilloglyi clade. Other relationships within Carpophilus were unresolved, possibly due to a combination of incomplete taxon sampling, and saturation of substitutions within the COI gene. Phylogeographic analysis of specimens collected from several localities within the range of C. oculatus showed that, with only one exception, there were no shared haplotypes between archipelagoes. This result suggests it may be possible to determine the provenence of intercepted specimens, providing further information regarding potential invasion pathways. A degree of geographic structuring was also present within C. o. gilloglyi, being separated into a western clade found in Fiji and Rotuma and an eastern clade distributed from the Kermadec Islands and Tonga to French Polynesia. This separation was most profound in COI data, with a mean pairwise distance between the clades of 7%. ITS2 data also demonstrates a degree of differentiation between the two clades, based on differences in the insertions and deletions between the clades. The variability in the shape and colour of the elytral pattern of C. oculatus was also investigated. Colour was quantified using a method based on Red-Green-Blue (RGB) colour values derived from digital photographs, while an outline analysis of the elytral pattern was conducted using elliptic Fourier analysis (EFA). Principal Components Analysis of the RGB values and EFA coefficients showed no clear separation between subspecies, nor were any trends correlated with host fruit or collection localities. Variation at all levels and all measures studied in this thesis show that this geographic region and this genus of beetles offer intruiging insights into speciation, biogeography and biological invasions. There is much scope for further research on the causes and consequences of this variation and the lives of these interesting insects.
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